Skip to main content Accessibility help
×
Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-26T02:39:40.852Z Has data issue: false hasContentIssue false

11 - Centralization, decentralization and the scales in between: what role might they play in the UK energy system?

from Part III - Social dimensions

Published online by Cambridge University Press:  05 March 2014

Tooraj Jamasb
Affiliation:
Heriot-Watt University, Edinburgh
Michael G. Pollitt
Affiliation:
University of Cambridge
Get access

Summary

Introduction

The scale of future energy systems in the UK will have a significant impact on the evolution of the built environment. Yet, the scale at which energy systems emerge is closely connected with social and economic values and behaviours and the nature of governance at local and national levels. Today's centralized energy system has a particular relationship with the built environment through the way people understand and use energy services. Electricity is centrally generated in remote power plants; the majority of heating systems are fuelled by gas which is centrally distributed; and petrol for vehicles is refined and distributed through a few large depots. Electricity generation within the built environment is rare, while district heating networks are virtually absent.

A key issue for decision makers is whether the strongly centralized approach to energy provision that developed in the post-war period can continue to meet the needs of the economy and society over the coming decades. The current pattern of mainly large-scale power plants and centralized delivery infrastructures for electricity, gas and oil may be sufficiently flexible to meet the dual challenges of energy security and climate change, but this is by no means certain. Meeting these challenges could require a significant shift so that energy systems are located at a range of scales. Indeed, some government strategies such as those to increase the role of renewables imply that such a shift needs to start soon.

Type
Chapter
Information
The Future of Electricity Demand
Customers, Citizens and Loads
, pp. 280 - 297
Publisher: Cambridge University Press
Print publication year: 2011

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ault, GFrame, DHughes, NStrachan, N 2008 Electricity Network Scenarios for Great Britain in 2050LondonOfgem
Baker, J 2008 New technology and possible advances in energy storageEnergy Policy 36Google Scholar
Boardman, B 2007 Home Truths: A Low Carbon Strategy to Reduce UK Housing Emissions by 80% by 2050OxfordEnvironmental Change Institute
Bouffard, F.Kirschen, D.S 2008 Centralised and distributed electricity systemsEnergy Policy 36 4504Google Scholar
Centre for Sustainable EnergyHassan, GarradCapener, PPearce, Bond 2007 Delivering Community Benefits from Wind Energy Development: A ToolkitLondonDepartment of Trade and Industry
Coaffee, J. 2008 Risk, resilience and environmentally sustainable citiesEnergy Policy 36Google Scholar
DECC 2009 The UK Renewable Energy StrategyLondonDECC
Department of Energy and Climate Change 2010 Digest of UK Energy Statistics 2010LondonThe Stationery Office
Department of Trade and Industry 2003 Energy White Paper: Our Energy Future – Creating a Low Carbon EconomyLondonHMSO
Department of Trade and Industry 2006 Distributed Energy: A Call for Evidence for the Review of Barriers and Incentives to Distributed Electricity Generation, including Combined Heat and PowerLondonDTI
Department of Trade and Industry 2006 The Energy Challenge: Energy Review ReportLondonThe Stationery Office
Department of Trade and Industry 2006 Our Energy Challenge, Power from the People: A Microgeneration StrategyLondonDepartment of Trade and Industry
Department of Trade and Industry 2007 Meeting the Energy ChallengeLondonThe Stationery Office
Devine-Wright, H.Devine-Wright, P 2006 Social representations of intermittency and the shaping of public support for wind energy in the UKInternational Journal of Global Energy Issues 25Google Scholar
Ekins, P.Lees, E 2008 The impact of EU policies on energy use in and the evolution of the UK built environmentEnergy Policy 36 4580Google Scholar
Embedded Generation Working Group 2001 Report into Network Access Issues, Volume ILondonDepartment of Trade and Industry
Fielder, F. 1996 Integrating financial thinking with strategic planning to achieve competitive successThe Electricity Journal 9Google Scholar
Foresight 2008 Powering Our Lives: Sustainable Energy Management and the Built EnvironmentLondonGovernment Office for Science
Greenpeace 2005 Decentralising Power: An Energy Revolution for the 21st CenturyLondonGreenpeace
Greenpeace 2006 Decentralising UK Energy: Cleaner, Cheaper, More Secure Energy for the 21st Century. Application of the WADE Economic Model to the UKLondonGreenpeace UK
Helm, D. 2007 The New Energy ParadigmOxfordOxford University Press
Hemmi, K. 2003 Energy Storage and its Role in the Further Integration of Renewable Energy Sources into the UK Electricity GridBrightonUniversity of Sussex
Hinnells, M. 2008 Combined heat and power in industry and buildingsEnergy Policy 36 4522Google Scholar
HM Government 2009 The UK Low Carbon Transition PlanLondonThe Stationery Office
Keirstead, J. 2008 What changes, if any, would increased levels of low-carbon decentralised energy have on the built environmentEnergy Policy 36 4518Google Scholar
Local Government Association 2007 A Climate of ChangeLondonLocal Government Association
Lovins, A. 1977 Soft Energy Paths: Towards a Durable PeaceHarmondsworthPenguin Books
NERA 2002 Security in Gas and Electricity MarketsLondonNERA
Ofgem 2004 London and Birmingham Blackouts DecisionLondonOfgem
Ofgem 2009 Electricity Distribution Price Control Review: Initial ProposalsLondonOfgem
Owens, S. 2000 ‘Engaging the public': information and deliberation in environmental policyEnvironment and Planning A 32 1141Google Scholar
Pitts, A. 2008 Future proof construction – Future building and systems design for energy and fuel flexibilityEnergy Policy 36 4539Google Scholar
Power, A. 2008 Does demolition or refurbishment of old and inefficient homes help to increase our environmental, social and economic viabilityEnergy Policy 36 4487Google Scholar
Roberts, S. 2008 Energy, equity and the future of the fuel poorEnergy Policy 36 4471Google Scholar
Royal Commission on Environmental Pollution 2000 Energy: The Changing ClimateLondon
Smith, C.Levermore, G 2008 Designing urban spaces and buildings to improve sustainability and quality of life in a warmer worldEnergy Policy 36 4558Google Scholar
Stern, N. 2006 Stern Review: The Economics of Climate ChangeLondonHM Treasury
Sustainable Development Commission 2007 Lost in Transmission? The Role of Ofgem in a Changing ClimateLondonSDC
Tyndall Centre for Climate Change Research 2005 Decarbonising the UK: Energy for a Climate Conscious FutureNorwichTyndall Centre
Unruh, G.C. 2000 Understanding carbon lock-inEnergy Policy 28 817Google Scholar
van Vliet, B.Chappells, H 1999
Walker, G. 2008 Decentralised systems and fuel poverty: Are there any links or risksEnergy Policy 36 4514Google Scholar
Walker, G. 2008 What are the barriers and incentives for community-owned means of energy production and useEnergy Policy 36 4401Google Scholar
Walker, G.Hunter, SDevine-Wright, PEvans, BFay, H 2007 Harnessing community energies: explaining and evaluating community-based localism in renewable energy policy in the UKGlobal Environmental Politics 7 64Google Scholar
Watson, J.Sauter, RJames, PMyers, LBahaj, BWing, R 2006 Unlocking the Power House: Policy and System Change for Domestic Microgeneration in the UKBrightonUniversity of Sussex
Willis, R. 2006 Grid 2.0: The Next GenerationLondonGreen Alliance
Wolfe, P. 2008 The implications of an increasingly decentralised energy systemEnergy Policy 36 4509Google Scholar
Woodman, B.Baker, P 2008 Regulatory frameworks for decentralised energyEnergy Policy 36 4527Google Scholar
Wüstenhagen, R.Wolsink, MBürer, M.J 2007 Social acceptance of renewable energy innovation: An introduction to the conceptEnergy Policy 35 2683Google Scholar

Save book to Kindle

To save this book to your Kindle, first ensure [email protected] is added to your Approved Personal Document E-mail List under your Personal Document Settings on the Manage Your Content and Devices page of your Amazon account. Then enter the ‘name’ part of your Kindle email address below. Find out more about saving to your Kindle.

Note you can select to save to either the @free.kindle.com or @kindle.com variations. ‘@free.kindle.com’ emails are free but can only be saved to your device when it is connected to wi-fi. ‘@kindle.com’ emails can be delivered even when you are not connected to wi-fi, but note that service fees apply.

Find out more about the Kindle Personal Document Service.

Available formats
×

Save book to Dropbox

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Dropbox.

Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

Available formats
×